In nitrogen
magnesium + oxygen gas ----D magnesium oxide
yes, the burning strip of Magnesium in nitrogen atmosphere produces solid Magnesium nitride, 3Mg + N2 = Mg3N2
Magnesium burns in the presence of sulfur dioxide because, the oxygen in the sulfur dioxide is able to bond with magnesium and produce an oxide.
POP!
This is a chemical change, like any other burning reaction: magnesium is turned into magnesium oxide by burning reaction with oxygen (from air). 2Mg + O2 --> 2MgO
The diagram shows four gas-jars. Each contains a different gas. Burning magnesium is put into each jar. air,exhailed air, nitrogen, oxagen
magnesium + oxygen gas ----D magnesium oxide
The product of the magnesium burning is magnesium oxide (MgO).
Nitrogen would extinguish the flame. Unlike most burning fuels, magnesium will continue to burn in carbon dioxide because its flame is hot enough to decompose carbon dioxide to carbon and oxygen.
yes, the burning strip of Magnesium in nitrogen atmosphere produces solid Magnesium nitride, 3Mg + N2 = Mg3N2
Magnesium burns in the presence of sulfur dioxide because, the oxygen in the sulfur dioxide is able to bond with magnesium and produce an oxide.
Burning of magnesium (or anything else) requires continuing combination with oxygen. If a burning piece of magnesium is transferred to an atmosphere of nitrogen, no additional magnesium can react with oxygen because none is available for reaction.
POP!
After burning of magnesium MgO (magnesium oxide) is obtained.
No. Burning magnesium, or burning anything for that matter, is a chemical change. The magnesium reacts with oxygen to form magnesium oxide, and to some degree reacts with nitrogen to form magnesium nitride.
This is a chemical change, like any other burning reaction: magnesium is turned into magnesium oxide by burning reaction with oxygen (from air). 2Mg + O2 --> 2MgO
This is a chemical change, like any other burning reaction: magnesium is turned into magnesium oxide by burning reaction with oxygen (from air). 2Mg + O2 --> 2MgO